KR200333467Y1 - Possibility control automatic proportion chemicals pouring system - Google Patents

Abstract

The present invention relates to an automatic proportional chemical injection device for water treatment, and in particular, a means for measuring the flow charge value for measuring the miscibility by taking a sample from the raw water pipe, and calculates the miscibility of raw water and flocculant based on the flow charge value Means, and means for controlling the amount of flocculant supplied to the raw water pipe according to the calculated miscibility, measuring the flocculant miscibility of raw water passing through the raw water pipe in real time, and according to the measurement result to the raw water pipe By controlling the amount of coagulant supplied at that time, it is possible to improve the cohesive efficiency of raw water, reduce the amount of coagulant introduced, and shorten the water treatment time and improve the water treatment efficiency as the coagulant efficiency of raw water is improved. The present invention relates to an automatic proportional medicine injector for water treatment.

Description

Possibility control automatic proportion chemicals pouring system

The present invention relates to an automatic proportional chemical injector for water treatment, in particular, to measure in real time the flocculant miscibility of raw water passing through the raw water pipe, and then adjust the amount of flocculant supplied to the raw water pipe according to the measurement result at that time The automatic proportional chemical injection device for water treatment can improve the coagulation efficiency of the water, reduce the amount of coagulant introduced, and shorten the water treatment time and improve the water treatment efficiency as the coagulation efficiency of raw water is improved. will be.

In general, raw water must be transferred to a treatment tank through raw water pipes for water treatment such as purified water, sewage, and waste water.In this case, a predetermined chemical (coagulant) is added to the raw water pipes so that foreign substances (floats) contained in the raw water are agglomerated with each other. In order to be supplied to the treatment tank, such a drug input system.

Figure 3 shows a conventional medicine injection system,

In the middle of the raw water pipe 1 through which raw water for processing passes, a supply pipe 2 for introducing a coagulant is provided, and a nozzle 3 having an impingement plate 4 is provided at an output end of the supply pipe 2. At the inlet side of the supply pipe (2), an inlet valve (5) and a supply pump (6) for adjusting the input amount of the pressure water injected into the raw water together with the flocculant are provided, and the nozzle (3) The chemical supply facility 7 which supplies a coagulant to another inlet side of the structure is comprised.

The chemical supply facility 7 itself includes a medicine passage metering pump so that the amount of flocculant set by the manager is supplied to the nozzle 3.

In the conventional mixing system configured as described above, the coagulant discharged from the chemical supply facility 7 is supplied to the central portion of the nozzle 3 through the chemical supply line PAC according to the information set by the manager, and the supply pump 6 Supply the water pumped from the raw water pipe (1) to the nozzle (3) through the supply pipe (2), the flocculant is injected through the center of the nozzle (3), the water through the outside of the nozzle (3) It is injected into the impingement plate 4 is mixed with water and flocculant in the impingement plate 4 and then diffused into the raw water pipe (1) to be mixed with the raw water of the raw water pipe.

In general, raw water has an anion charge value, and the coagulant introduced has a charge value of cation. When a coagulant is introduced into the raw water pipe (1), the raw water attracts a coagulant of the cation, and foreign substances (floatants) entangle together. If the input amount of the flocculant is not sufficient compared to the raw water, the foreign matter is not effectively flocculated and is supplied to the treatment tank to increase the water treatment time, and when the amount of the flocculant added is excessive compared to the raw water, it consumes unnecessary flocculant. The problem occurs.

In the conventional mixing system operating as described above, the manager collects a sample from the raw water pipe at regular intervals (for example, morning and afternoon), measures the degree of miscibility between the raw water and the flocculant, and manually It controls the amount of flocculant added.

However, in the conventional admixture system, the flow rate of the raw water passing through the raw water pipe is not constant because the manager measures the degree of miscibility of raw water to the injected coagulant manually at regular intervals and adjusts the input amount of the coagulant according to the measurement result. If not, there is a problem that the miscibility of the raw water is irregular, the foreign matter agglomeration rate of the raw water is lowered, the water treatment time in the treatment tank is not only long, but also the problem of low treatment efficiency.

In addition, an unnecessarily large amount of flocculant is frequently introduced, causing a problem that a large amount of flocculant is excessively used.

Accordingly, the present invention for solving the above problems is a means for taking a sample from the raw water pipe to measure the flow charge value for the measurement of miscibility, means for calculating the miscibility of raw water and flocculant according to the flow charge value, and By means of adjusting the amount of flocculant supplied to the raw water pipe according to the calculated degree of miscibility, the flocculant miscibility of the raw water passing through the raw water pipe is measured in real time, and according to the measurement result of the flocculant supplied to the raw water pipe By adjusting the amount at that time, the coagulation efficiency of raw water can be improved, the amount of coagulant introduced can be reduced, and the coagulation efficiency of raw water is improved, so that the water treatment time can be shortened and the water treatment efficiency can be improved. It is an object of the present invention to provide a mixing system control apparatus for sewage treatment.

The present invention for achieving the above object,

In a mixing system comprising a raw water pipe through which the raw water for water and sewage treatment passes, and a chemical supply device for supplying a flocculant into the raw water pipe,

A flow charge measuring device for receiving the raw water in which the flocculant is supplied from the raw water pipe and measuring the flow charge for measuring the miscibility of the raw water and the flocculant;

A miscibility calculator for calculating the miscibility of the raw water and the flocculant by the flow charge value measured from the flow charge meter;

A controller for calculating the supply amount of the flocculant according to the miscibility of the raw water calculated by the miscibility calculator, and controlling the metering pump constituting the drug supply equipment according to the calculation result to adjust the amount of flocculant supplied to the raw water pipe ; It consists of.

The flow charge meter,

The probe is formed at a position where the sample inlet and the sample outlet are opposed to each other, and the raw water in the probe is strongly flown while reciprocating in the probe to separate the counter ions that are coupled to the charged particles in the sample by the flow shear force and flow charge. It consists of a piston for generating a and an electrode provided on the inner wall surface of the probe for supplying the flow charge generated from the sample to the miscibility calculator.

The miscibility calculator may transmit the calculated result to a PC of an administrator connected on-line so that the administrator may check the miscibility of the miscibility system at a distance.

1 is a view showing an automatic proportional drug injection device of the present invention.

Figure 2 is a view showing a flow charge meter applied to the present invention.

Figure 3 is a view showing a conventional drug injection system.

Explanation of symbols for main parts of the drawings

1: feed pipe, 6: feed pump,

10: flow charge meter, 11: miscibility calculator,

12: controller, 13: PC,

21: probe, 22: sample inlet,

23: sample outlet, 24: piston,

25: electrode,

Hereinafter, a preferred embodiment of the present invention with reference to the accompanying drawings, Figures 1 and 2 as follows.

In the description of the present invention, the same components as in the prior art will be denoted by the same reference numerals to avoid redundant description.

Reference numeral 10 denotes a flow charge meter for measuring the flow charge for calculating the miscibility between the raw water and the flocculant from the sample collected from the raw water pipe 1, the flow charge meter 10 as shown in FIG. ,

A probe 21 is formed at a position where the sample inlet 22 and the sample outlet 23 face each other, and the inside of the probe 21 strongly flows the sample introduced into the probe 21 while reciprocating up and down. Piston 24 is installed to separate the counter ions coupled to the charged particles in the sample by the water flow shear force to generate a flow charge, the inner wall surface of the probe 21 to the reciprocating motion of the piston 24 An electrode 25 is configured to output to the miscibility calculator 11 which detects and reflows the flow charges generated by the flow charge.

The flow charge measurement principle in the sample by the flow charge measuring device 10 configured as described above is as follows.

In general, raw water containing foreign matter has a negative charge, and a coagulant introduced has a positive charge.

The raw water attracts positively charged ions (counter ions) around the particles to form an ionic layer. According to the electrical double layer theory, the ion layer has a fixed layer and a diffusing layer depending on the degree of bonding with the particles. layer), and the fixed layer has the property that the counter ions are electrically strongly coupled with the particles so that they are not separated from the particles by the current turbulence force due to strong turbulence, and the diffusion layer has the binding force between the counter ions and the particles. It is weak and can be separated from the particles by the flow shear force, and the current generated by the flow of such charge is called flow charge or streaming current.

Therefore, when the flow charge is higher than the reference value, the coagulant is excessively injected, and when the flow charge is lower than the reference value, the coagulant may be judged to be insufficient.

Reference numeral 11 denotes a miscibility calculator, which calculates the miscibility of raw water and flocculant as the flow charge value measured from the flow charge measuring instrument 10, and controls the calculated miscibility calculation value. And a function of transmitting to the PC 13 of the administrator connected on-line.

As the miscibility calculator 11 transmits the measured miscibility to the PC 13 of the manager connected on-line, the manager can check the miscibility state of the raw water and the coagulant which are made in the water pipe 1 even at a long distance. You can check.

Reference numeral 12 controls the metering pump constituting the drug supply facility, more specifically, the drug supply facility 7 according to the miscibility calculation value output from the miscibility calculator 11, and then, the nozzle 3 is used. By controlling the amount of flocculant introduced into the water pipe 1, a controller for controlling the appropriate amount of flocculant to be introduced corresponding to the raw water passing through the raw water pipe 1 is shown.

The controller 12 receives the flow rate information of the raw water passing through the raw water pipe 1 from the separate flow sensor installed in the raw water pipe 1, as shown in Figure 1, the chemical supply facility (7) The coagulant dose can be adjusted more precisely by reflecting the calculated coagulant discharge control value.

Referring to the operation and effects of the present invention configured as described above are as follows.

When raw water for treatment passes through the raw water pipe (1), a certain amount of flocculant is introduced into the raw water pipe (1) by the operation of the chemical supply facility (7), and the injected flocculant is combined with foreign matters contained in the raw water. To aggregate.

The sample collected from the rear end of the predetermined distance from the coagulation agent is introduced into the sample inlet 22 of the flow charge meter 10, the sample introduced into the sample inlet 22 passes through the inside of the probe 21 Is strongly flown by the vertical reciprocating motion of the piston (24).

This flow exerts a strong water flow shear force on the sample, separates the counter ions attached to the raw water to generate a flow charge, and the electrode 25 senses this flow charge and outputs it to the miscibility calculator 11. .

The miscibility calculator 11 calculates a miscibility of raw water and a flocculant according to the flow charge value measured by the flow charge meter 10, and connects the calculated miscibility value to the controller 12 online. Transfer to (13).

Accordingly, the controller 12 calculates the supply quantity of the coagulant according to the input miscibility value and then controls the chemical supply facility 7 according to the operation information to adjust the amount of coagulant introduced into the raw water pipe 1. It is to be possible.

In addition, since the degree of miscibility between the raw water and the flocculant is displayed in real time through the PC 13, the manager can check the operation state of the miscation system even when not at the work site.

As described above, the mixing system control apparatus of the present invention adjusts the amount of flocculant introduced into the raw water pipe 1 in real time so that the flocculant can be introduced in an optimal state, and thus the raw water and the coagulant passing through the raw water pipe 1 To maintain the optimum degree of miscibility, it is possible to reduce the input amount of the flocculant by properly adjusting the dosage of the flocculant, and to improve the flocculation efficiency of the raw water can be expected to reduce the water treatment time. have.

As described above, the present invention includes a means for measuring a flow charge value for measuring a miscibility by taking a sample from a raw water pipe, a means for calculating the miscibility of raw water and a flocculant according to the flow charge value, and the calculated miscibility. By measuring the amount of flocculant supplied to the raw water pipe according to the figure, the flocculant miscibility of the raw water passing through the raw water pipe is measured in real time, and the amount of flocculant supplied to the raw water pipe according to the measurement result is then In this case, the cohesive efficiency of raw water can be improved, the amount of coagulant introduced can be reduced, and the cohesive efficiency of raw water is improved, which shortens the water treatment time and improves the water treatment efficiency. The effect of providing a misc system control device can be expected.

Claims (3)

In the chemical injection system comprising a raw water pipe (1) through which the raw water for water and sewage treatment passes, and a chemical supply facility (7) for supplying a flocculant into the raw water pipe (1), A flow charge meter (10) which receives raw water in a state in which a flocculant is supplied from the raw water pipe (1) and measures a flow charge for measuring the miscibility of the raw water and the flocculant; A miscibility calculator (11) for calculating miscibility of raw water and flocculant using the flow charge value measured from the flow charge measuring device (10); The amount of flocculant supplied to the raw water pipe 1 is controlled by calculating the amount of flocculant supplied according to the degree of miscibility of the raw water calculated by the miscibility calculator 11, and controlling the chemical supply facility 7 according to the calculation result. A controller 12 to be adjusted; Automatic proportional medicine injection device for water treatment, characterized in that consisting of. According to claim 1, wherein the flow charge meter 10, The probe 21 formed at the position where the sample inlet 22 and the sample outlet 23 are opposed to each other, and the raw water in the probe 21 are strongly flown by reciprocating movement in the probe 21 by the water flow shear force Piston 24 which separates the counter ions coupled to the charged particles in the sample to generate the flow charge, and the flow charge generated from the sample to supply to the miscibility calculator 11 is installed on the inner wall surface of the probe 21 Automatic proportional medicine injection device for water treatment, characterized in that consisting of electrodes (25). The method of claim 1, wherein the miscibility calculator 11 transmits the calculated result to the PC 13 of the manager connected on-line so that the manager can check the miscibility of the miscibility system at a distance. Automatic proportional medicine injection device for water treatment.